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Deep-water Buccinidae (Gastropoda: Neogastropoda) from sunken wood, vents and seeps: molecular phylogeny and taxonomy

Published online by Cambridge University Press:  09 July 2013

Yu.I. Kantor*
Affiliation:
A.N. Severtzov Institute of Ecology and Evolution of Russian Academy of Sciences, Leninski Prosp. 33, Moscow 119071, Russia
N. Puillandre
Affiliation:
Muséum National d'Histoire Naturelle, Département Systématique et Evolution, UMR 7138, 43, Rue Cuvier, 75231 Paris, France
K. Fraussen
Affiliation:
Leuvensestraat 25, B–3200 Aarschot, Belgium
A.E. Fedosov
Affiliation:
A.N. Severtzov Institute of Ecology and Evolution of Russian Academy of Sciences, Leninski Prosp. 33, Moscow 119071, Russia
P. Bouchet
Affiliation:
Muséum National d'Histoire Naturelle, Département Systématique et Evolution, UMR 7138, 43, Rue Cuvier, 75231 Paris, France
*
Correspondence should be addressed to: Y.I. Kantor, A.N. Severtzov Institute of Ecology and Evolution of Russian Academy of Sciences, Leninski Prosp. 33, Moscow 119071, Russia email: [email protected]

Abstract

Buccinidae—like other canivorous and predatory molluscs—are generally considered to be occasional visitors or rare colonizers in deep-sea biogenic habitats. However, casual observations during tropical deep-sea cruises suggest that associations between buccinids and sunken wood, in particular, are not fortuitous. Enigmatocolus monnieri has been found to co-occur in Madagascar with bathymodiolines, vesicomyids and solemyids, indicating the presence of seeps, and species of Thermosipho gen. nov. have been sampled by submersibles and remotely operated vehicles, exclusively from hydrothermal vents. A molecular phylogeny (based on CO1, 12S and 28S genes) reveals that buccinid genera potentially associated with sunken wood (Eosipho, Gaillea gen. nov., Calagrassor gen. nov., and Manaria) are closely related to taxa from vents (Thermosipho gen. nov.) and seeps (Enigmaticolus). The anatomy of several dissected species did not reveal any special trait that could be interpreted as a special adaptation to biogenic substrates. Buccinids from sunken wood are most diverse in the Indo-Pacific centre of marine biodiversity, the ‘Coral Triangle’, at depths between 100 and 1000 m, with numerous species still undescribed.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2013 

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References

REFERENCES

Beck, L.A. (1996) Systematic position and relationship of Phymorhynchus hyfifluxi n.sp., a further new turrid gastropod species associated with hydrothermal vent sites in the North Fiji Basin. Archiv für Molluskenkunde 126, 109115.Google Scholar
Bouchet, P. and Rocroi, J.-P. (2005) Classification and nomenclator of gastropod families. Malacologia 47, 1397.Google Scholar
Bouchet, P. and Warén, A. (1986) Mollusca Gastropoda: taxonomical notes on tropical deep water Buccinidae with descriptions of new taxa. Mémoires du Muséum National d'Histoire Naturelle, Serie A, Zoologie 133, 455499, pls 1–18.Google Scholar
Desbruyères, D., Sagonzac, M. and Bright, M. (eds) 2006. Handbook of deep-sea hydrothermal vent fauna. 2nd edition. Denisia 18.Google Scholar
Folmer, O., Black, M., Hoeh, W., Lutz, R. and Vrijenhoek, R. (1994) DNA primers for amplification of mitochondrial cytochrome c oxidase subunit I from diverse metazoan invertebrates. Molecular Marine Biology and Biotechnology 3, 294299.Google ScholarPubMed
Fraussen, K. (2008) Enigmaticolus, a new genus of deep water buccinids (Gastropoda: Buccinidae), with description of a new species from Madagascar. Gloria Maris 46, 7482.Google Scholar
Fraussen, K. and Hadorn, R. (2005) A new species of Eosipho (Gastropoda: Buccinidae) from Guadeloupe, western Atlantic. Novapex 6, 107109.Google Scholar
Fraussen, K. and Sellanes, J. (2008) Three new buccinid species (Gastropoda: Neogastropoda) from Chilean deep-water, including one from a methane seep. Veliger 50, 97106.Google Scholar
Génio, L., Kiel, S., Cunha, M.R., Grahame, J. and Little, C.T.S. (2012) Shell microstructures of mussels (Bivalvia: Mytilidae: Bathymodiolinae) from deep-sea chemosyntheticsites: do they have a phylogenetic significance? Deep-Sea Research I 64, 86103.Google Scholar
Hasegawa, K. (2009) Upper bathyal gastropods of the Pacific coast of northern Honshu, Japan, chiefly collected by R/V Wakataka-maru. In Fujita, T. (ed.) Deep-sea fauna and pollutants off Pacific coast of northern Japan, Tokyo: National Museum of Nature and Science, Monographs, No. 39, pp. 225383.Google Scholar
Huelsenbeck, J.P., Ronquist, F. and Hall, B. (2001) MrBayes: Bayesian inference of phylogeny. Bioinformatics 17, 754755.Google Scholar
Jovelin, R. and Justine, J.-L. (2001) Phylogenetic relationships within the Polyopisthocotylean monogeneans (Plathyhelminthes) inferred from partial 28S rDNA sequences. International Journal of Parasitology 31, 393401.Google Scholar
Kantor, Yu.I. (1988) Gastropods of the subgenus Ancistrolepis (Clinopegma) (Gastropoda, Buccinidae) of the Okhotsk Sea. Zoological Journal 67, 11261140 [In Russian.]Google Scholar
Kantor, Yu.I., Puillandre, N., Rivasseau, A. and Bouchet, P. (2012) Neither a buccinid nor a turrid: a new family of deep-sea snails for Belomitra P. Fischer, 1883 (Mollusca, Neogastropoda), with a review of Recent Indo-Pacific species. Zootaxa 3496, 164.Google Scholar
Kosyan, A.R. and Kantor, Yu.I. (2009) Phylogenetic analysis of the subfamily Colinae (Neogastropoda: Buccinidae) based on morphological characters. Nautilus 123, 8394.Google Scholar
Lallier, F.H. (2006) Thioautotrophic symbiosis: towards a new step in eukaryote evolution? Cahiers de Biologie Marine 47, 391396.Google Scholar
Lorion, J., Buge, B., Cruaud, C. and Samadi, S. (2010) New insights into diversity and evolution of deep-sea Mytilidae (Mollusca: Bivalvia). Molecular Phylogenetics and Evolution 57, 7183.Google Scholar
Marshall, B.A. (1985) Recent and Tertiary deep-sea limpets of the genus Pectinodonta Dall (Mollusca: Gastropoda) from New Zealand and New South Wales. New Zealand Journal of Zoology 12, 273282.Google Scholar
Marshall, B.A. (1986) Recent and Tertiary Cocculinidae and Pseudococculinidae (Mollusca: Gastropoda) from New Zealand and New South Wales. New Zealand Journal of Zoology 12, 505546.Google Scholar
Marshall, B.A. (1988) Skeneidae, Vitrinellidae and Orbitestellidae (Mollusca: Gastropoda) associated with biogenic substrata from bathyal depths off New Zealand and New South Wales. Journal of Natural History 22, 9491004.Google Scholar
Martell, K.A., Tunnicliffe, V. and Macdonald, I.R. (2002) Biological features of a buccinid whelk (Gastropoda, Neogastropoda) at the Endeavour ventfields of Juan de Fuca Ridge, northeast Pacific. Journal of Molluscan Studies 68, 4553.Google Scholar
Okutani, T. and Iwasaki, N. (2003) Noteworthy abyssal mollusks (excluding vesicomyid bivalves) collected from the Nankai Trough off Shikoku by the ROV Kaiko of the Japan Marine Science and Technology Center. Venus 62, 110.Google Scholar
Rambaut, A., Drummond, A.J. (2007) Tracer v1.4. Available at : http://beast.bio.ed.ac.uk/Tracer (accessed 24 May 2013).Google Scholar
Samadi, S., Corbari, L., Lorion, J., Hourdez, S., Haga, T., Dupont, J., Boisselier, M.-C. and Richer De Forges, B. (2010) Biodiversity of deep-sea organisms associated with sunken-wood or other organic remains sampled in the tropical Indo-Pacific. Cahiers de Biologie Marine 50, 343352.Google Scholar
Sasaki, T., Okutani, T. and Fujikura, K. (2005) Molluscs from hydrothermal vents and cold seeps in Japan: a review of taxa recorded in twenty recent years (1984–2004). Venus 64, 87133.Google Scholar
Sasaki, T., Warén, A., Kano, Y., Okutani, T. and Fujikura, K. (2010) Gastropods from Recent hot vents and cold seeps: systematics, diversity and life strategies. In Kiel, S. (ed.) The Vent and Seep Biota, Topics in Geobiology 33. New York: Springer, pp. 170254.Google Scholar
Simon, C., Franke, A. and Martin, A. (1991) The polymerase chain reaction: DNA extraction and amplification. In Hewitt, G.M., Johnson, A.W.B. and Young, J.P.W. (eds) Molecular techniques in taxonomy. New York: Springer, pp. 329355.CrossRefGoogle Scholar
Warén, A. (2011) Molluscs on biogenic substrates. In Bouchet, P., Le Guyader, H. and Pascal, O. (eds) The natural history of Santo. Patrimoines Naturels 70, 438448.Google Scholar
Warén, A. and Bouchet, P. (1989) New gastropods from East Pacific hydrothermal vents. Zoologica Scripta 18, 67102.Google Scholar
Warén, A. and Bouchet, P. (1993) New records, species, genera and a new family of gastropods from hydrothermal vents and hydrocarbon seeps. Zoologica Scripta 22, 190.CrossRefGoogle Scholar
Warén, A. and Bouchet, P. (2001) Gastropoda and Monoplacophora from hydrothermal vents and seeps; new taxa and records. Veliger 44, 116231.Google Scholar
Wolff, T. (1979) Macrofaunal utilization of plant remains in the deep sea. Sarsia 64, 117136.Google Scholar